Morbid Obesity Clinical Trial
Aim of study:
To evaluate changes in feeding-related neural activity after different bariatric procedures
in morbidly obese patients. Relationship of gut hormone levels will be assessed as well.
Bariatric surgery mediates weight-loss via one or several mechanisms inherent to each
technique used. Surgical restriction is the "lowest common denominator" shared, to various
extent, by all procedures. Different degrees of malabsorption are utilized in "bypass
procedures" such as Roux-Y gastric bypass (GBP), biliopancreatic diversion (BPD) and
biliopancreatic diversion with duodenal switch (BPD-DS). These surgical options differ, also,
in the degree of weight loss they promote. This difference is due to several factors
including the extent of appetite suppression, increase in energy expenditure and degree of
malabsorption achieved by the different procedures.
A post-operative change in the gut-brain hormonal axis is a component that has recently drawn
much attention and research but is still ill defined. It is an effect, presumably mediated by
a change in a myriad of peptides and hormones originating mostly from the intestinal tract,
eliciting a change in hunger and satiety feelings as well as a change in the drive to eat.
Generally speaking, patients after sleeve gastrectomy (SG) and the bypass procedures
mentioned, have a decreased appetite and report a reduced drive to seek food, which
presumably contributes to their weight loss.
Functional magnetic resonance imaging (fMRI) is an imaging modality which measures the
hemodynamic response (change in blood flow) related to neural activity in the brain,
therefore allowing mapping of areas in the brain which become active due to discrete stimuli.
Recent studies utilizing fMRI to study neural response to hunger and satiety states, as well
as to food anticipation and ingestion, have mapped discrete areas in the brain which respond
to these stimuli. Fuhrer and colleagues found that during hunger, significantly enhanced
brain activity is found in the left striate and extrastriate cortex, the inferior parietal
lobe, and the orbitofrontal cortices. Stimulation with food images was associated with
increased activity in both insulae, the left striate and extrastriate cortex, and the
anterior midprefrontal cortex. Nonfood images were associated with enhanced activity in the
right parietal lobe and the left and right middle temporal gyrus1. Stice and colleagues
reported brain imaging studies which suggested that obese relative to lean individuals show
greater activation of the gustatory cortex (insula/frontal operculum) and oral somatosensory
regions (parietal operculum and Rolandic operculum) in response to anticipated intake and
consumption of palatable foods.
Ghrelin is an orexigenic (appetite stimulating) peptide secreted by the foregut prior to
meals and is therefore considered a "meal initiator". Obese patients have low ghrelin levels
but maintain a normal diurnal variation of this peptide, while patients after GBP, have
reduced ghrelin levels which remain low throughout the day 3. Malik and co-workers
demonstrated that when ghrelin was administered intravenously to healthy volunteers during
fMRI the neural response to food pictures was affected. The neural effects of ghrelin were
correlated with self-rated hunger ratings.
Leptin is an adipocyte-derived circulating hormone that provides information to the brain
regarding energy stores. The brain's response to leptin involves changes in energy
expenditure and food intake. Farooqi and co-workers reported data suggesting that leptin acts
on neural circuits governing food intake to diminish perception of food reward while
enhancing the response to satiety signals generated during food consumption.
Peptide YY3-36 (PYY) is a gut-derived satiety signal whose levels increase after meal
ingestion. Intravenous infusion of PYY to human volunteers has been shown to cause a decrease
in food consumption and self-reported feelings of hunger. It has also been able to alter
neuronal activity in within both corticolimbic and higher-cortical areas as well as
homeostatic brain regions. Levels of PYY are low in obese subjects, and have has been shown
to gradually increase as early as 2 days after GBP, perhaps contributing to the success of
this procedure in terms of appetite control.
GLP-1 (glucagons-like peptide 1), like PYY, is an anorexigenic (appetite suppressing) signal.
It is secreted from the gut after meals and reduces food intake by an effect on the
brain-stem, as well as by decreasing the rate of gastric emptying which adds to the feeling
of fullness after a meal. Like PYY, GLP-1 levels are low in obese patients and increase
dramatically following GBP, contributing both to the weight loss as well as to the
improvement in glucose tolerance after this operation.
Several correlations will be assessed:
1. Correlation between subjective reporting of hunger/satiety and fMRI images.
2. Change in neural response to food-neutral and food-related pictures, following the
operation (before vs. 1m and vs. 6m after the procedure).
3. Difference between the two surgical procedures (SG vs.GBP) in regard to the neural
response to food images.
4. Correlation between gut-derived appetite-regulating hormone blood levels to subjective
reporting of hunger/satiety and fMRI images at the different time points.
5. Correlation of measured parameters to changes in weight, BMI and excess weight loss.
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